JP2006223465A - Medical image system and acquisition method of medical image - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medical image system facilitating the acquisition of an original image. <P>SOLUTION: This medical image system 1 is so constituted that one control device 20 refers to an image management table of the original image stored in another control device 20 and searches the original image of a reprocessed object by the image management table. When request information of the searched original image is transmitted to the other control device 20, the other control device 20 searches the requested original image and its related information and provide the image and information to one control device 20. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a medical image system that generates and manages medical images and a medical image acquisition method.

  In the medical field, digitization of medical images obtained by examination imaging has been realized, and a medical image system responsible for data generation and output of medical images has been developed (for example, see Patent Document 1). In a conventional medical image system, as shown in FIG. 5, an image generation device such as a CR (Computed Radiography) or a cassette-dedicated reader, and a control device that stores the medical image generated by controlling the image generation Are connected to each other, and a medical image stored by each control device is output to one image processing device.

The engineer controls the image generation by the image generation device using the control device, and after confirming the image quality of the generated medical image and the position of the subject in the control device, if there is no need to re-photograph the medical image on the image processing device side To send to. In the image processing apparatus, image processing of medical images received from each control apparatus is performed, and when the image is determined by an engineer as an image suitable for interpretation (hereinafter, the confirmed image is referred to as an image for interpretation), The image is transmitted to a management device (a server that stores and manages an image for interpretation), a PACS (Picture Archiving and Communication System for medical application; a system that transmits an image to a terminal for interpretation), a film output device, and the like.
Japanese Patent Laid-Open No. 10-23201

  However, in many cases, a plurality of photographing rooms are separated from each other in a hospital, such as each floor or each ward. Only some technicians have the authority to determine whether a captured medical image is suitable for interpretation or to perform adjustment by image processing. Therefore, an engineer having such authority circulates through image processing apparatuses installed in various places in a hospital to check the quality of medical images and adjust image processing.

  At that time, it may be necessary to perform image processing again on the image for interpretation that has already been determined. However, in the conventional medical image system, the medical image is output in one direction from the control device to the image processing device and from the image processing device to an external device such as an image server. Went to the control device where the image is stored, operated the control device to search for medical images (original images) that need to be reprocessed, and to send to the image processing device, which was cumbersome .

  To deal with this problem, the management apparatus may be configured to collectively manage not only the confirmed image for interpretation but also the original image and distribute the original image from the management apparatus to each image processing apparatus. . However, in CT (Computed Tomography) and MRI (Magnetic Resonance Imaging), a medical image of 100 sheets is generated by one examination. When this is managed collectively on the management apparatus side, a considerably large memory must be prepared, and it may be assumed that such a configuration cannot be accommodated. The engineer must also go to the place where the management device is installed for searching the original image, etc. However, the management device is not as large as the control device, so it may not be close to the engineer. Work efficiency is poor.

  The subject of this invention is providing the medical image system which can acquire an original image easily.

The invention described in claim 1
In a medical image system including at least one or more image generation devices and a plurality of control devices that acquire and store medical images generated by the image generation devices,
The plurality of control devices are configured to be able to acquire medical images stored in one control device from another control device.

The invention according to claim 2 is the medical image system according to claim 1,
The plurality of control devices acquire related information regarding an image attached to the medical image together with the medical image.

The invention according to claim 3 is the medical image system according to claim 2,
An image processing apparatus for performing image processing on the medical image;
When the image processing apparatus performs image processing on the medical image acquired from the other control apparatus, the control apparatus relates to the image processing on the related information of the image for image interpretation that has been subjected to the image processing. The related information is updated by adding information.

The invention according to claim 4 is the medical image system according to claim 3,
A plurality of the image processing devices, each image processing device can store a medical image to be image processed,
The plurality of image processing apparatuses are configured to be able to acquire medical images stored in one image processing apparatus from another image processing apparatus.

The invention according to claim 5 is the medical image system according to claim 4,
The plurality of control devices and the plurality of image processing devices are configured to be able to acquire medical images stored in another control device or another image processing device from one control device or one image processing device. Features.

The invention according to claim 6 is the medical image system according to claim 2,
The plurality of control devices include image processing means for performing image processing on the medical image,
When one control device performs image processing on a medical image acquired from another control device, the information related to the image processing is transmitted to the other control device, and the other control device transmits the transmitted image. Information related to processing is updated in addition to the related information of the medical image.

The invention according to claim 7 is the medical image system,
At least one image generating device;
A plurality of control devices for acquiring and storing medical images generated by the image generation device;
An image processing device for performing image processing on medical images stored in the control device;
A management device that stores the image for image interpretation subjected to the image processing and performs output control thereof,
The plurality of control devices are configured such that medical images stored in one control device can be acquired from another control device.

The invention according to claim 8 is the medical image system according to any one of claims 1 to 7,
A plurality of the image generating devices;
The plurality of image generation devices provide the generated medical image to a control device that controls image generation among the plurality of control devices.

The invention according to claim 9 is:
A medical image acquisition method in a medical image system, comprising at least one image generation device and a plurality of control devices for acquiring and storing medical images generated by the image generation device,
A medical image stored in one control device is acquired from another control device.

The invention according to claim 10 is the method for acquiring a medical image according to claim 9,
Along with the medical image, related information regarding the image attached to the medical image is acquired.

The invention according to claim 11 is the method for acquiring a medical image according to claim 10,
The medical image system includes an image processing device that performs image processing on the medical image;
When image processing is performed by the image processing device on the medical image acquired from the other control device, information related to the image processing is added to the related information of the image for image interpretation that has been subjected to the image processing. The related information is updated.

The invention according to claim 12 is the method for acquiring a medical image according to claim 11,
The medical image system includes a plurality of image processing devices capable of storing medical images to be processed,
A medical image stored in one image processing apparatus is obtained from another image processing apparatus.

The invention according to claim 13 is the method for acquiring a medical image according to claim 12,
A medical image stored in another control device or another image processing device is acquired from one control device or one image processing device.

The invention according to claim 14 is the method for acquiring a medical image according to claim 10,
The plurality of control devices have image processing means for performing image processing on the medical image,
When one control device performs image processing on a medical image acquired from another control device, the information related to the image processing is transmitted to the other control device, and the other control device transmits the transmitted image. Information related to processing is updated in addition to the related information of the medical image.

The invention according to claim 15 is:
At least one or more image generation apparatuses, a plurality of control apparatuses that acquire and store medical images generated by the image generation apparatus, and an image processing apparatus that performs image processing on the medical images stored in the control apparatus; A medical image acquisition method in a medical image system comprising: a management device that stores an image for image interpretation subjected to the image processing and performs output control thereof;
A medical image stored in one control device is acquired from another control device.

The invention according to claim 16 is the method for acquiring a medical image according to any one of claims 9 to 15,
The medical image system includes a plurality of the image generation devices,
The plurality of image generation devices provide the generated medical image to a control device that controls image generation among the plurality of control devices.

  According to the first and ninth aspects of the invention, since a medical image stored in another control device can be acquired from one control device, a medical image stored in any one of the control devices can be obtained. When necessary, the necessary medical image can be easily obtained by operating the nearest control device.

  According to the second, third, tenth, and eleventh aspects of the present invention, it is necessary to perform reprocessing after image processing is once performed on a medical image, and the medical image is acquired from another control device and then image processing is performed again. In this case, the related information can be updated to information related to reprocessing. Therefore, even when reprocessing is performed, the processed image can be associated with related information.

  According to the fourth and twelfth aspects of the present invention, medical images can be exchanged between image processing apparatuses, and medical images stored in other image processing apparatuses are required during operation of the image processing apparatus. However, the medical image can be easily acquired.

  According to the inventions of claims 5 and 13, medical images can be exchanged between the control device and the image processing device, and medical images stored in the control device are required during operation of the image processing device. Even in such a case, the medical image can be easily acquired. In addition, the number of devices that can be operated to acquire a desired medical image is increased, and work efficiency is improved.

  According to the invention described in claims 6 and 14, it is necessary to re-process the medical image once, and when the medical image is acquired from another control device and the image processing is performed again. The related information can also be updated to information related to reprocessing. Therefore, even when reprocessing is performed, the processed image can be associated with related information. In addition, since the control device has an image processing function, a terminal device that performs the operation of confirming the image for interpretation is more closely present to the technician in charge, which is preferable.

  According to the seventh and fifteenth aspects of the present invention, even when only the processed image is stored in the management apparatus, the medical image stored in the other control apparatus can be acquired from one control apparatus. When a medical image stored in any of the control devices becomes necessary, the necessary medical image can be easily acquired by operating the nearest control device.

  According to the inventions described in claims 8 and 16, the control device can acquire a medical image generated by the image generation device even if the image generation device is controlled at the time of image generation.

First, the configuration will be described.
FIG. 1 shows a system configuration of a medical image system 1 in the present embodiment.
As shown in FIG. 1, the medical image system 1 includes a CR network unit 2 including an image generation device 10, a control device 20, and an image processing device 30, a RIS / HIS 3, a management device 4, and an output device 5 connected to a network bus N1. It is possible to send and receive information to and from each other.

Hereinafter, each component device will be described.
In the CR network unit 2, a plurality of image generation apparatuses 10, a plurality of control apparatuses 20, and an image processing apparatus 30 are connected via a network bus N2. In addition, the installation number of each apparatus 10-30 is not specifically limited.

  The image generation device 10 generates digital data of a patient's captured image (medical image) according to control by any of the control devices 20. Here, a device that generates a medical image by X-ray imaging, such as a CR, CT, an FPD (Flat Panel Detector), and a cassette-dedicated reader, is applied.

  The image generation device 10 is a device that complies with DICOM (Digital Imaging and Communication in Medicine), which is a standard for medical images and communication thereof, and related information about the generated medical images (for example, related to a patient whose medical images are taken). Patient information, imaging information related to imaging or examination, examination information, etc.) can be input from the outside and can be automatically generated. The image generation apparatus 1 appends the related information to the header of the generated medical image, for example, and transmits the medical image and the related information to the control apparatus 10 that controls the image generation and provides the medical image.

  The control device 20 acquires imaging order information (including patient information about a patient to be imaged and instruction information about imaging and examination) from the RIS / HIS 3, and controls image generation of the image generation device 10 according to the imaging order information. In addition, the medical image generated by the image generation device 10 is acquired and stored and managed as an original image, and distribution of the medical image is controlled. Although a plurality of control devices 20 exist on the network bus N2, each control device 20 individually controls the image generation device 10 instructed by the shooting order information to acquire the generated image.

FIG. 2 shows an internal configuration of the control device 20.
As shown in FIG. 2, the control device 20 includes a control unit 21, an operation unit 22, a display unit 23, a communication unit 24, a storage unit 25, and an HDD (Hard Disk Drive) 26.

  The control unit 21 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), and the like. The CPU reads various control programs from the storage unit 25 and develops them in the RAM. Then, the execution of processing is comprehensively controlled according to the program and various calculations are performed.

  The operation unit 22 includes a keyboard, a mouse, and the like, generates an operation signal corresponding to a key operation and a mouse operation, and outputs the operation signal to the control unit 21.

  The display unit 23 includes an LCD (Liquid Crystal Display) or the like, and performs various displays such as an operation screen at the time of image processing and a medical image after processing in accordance with instructions from the control unit 21.

  The communication unit 24 includes a communication interface such as a router or a modem, and communicates with an external device on the network bus N2 in accordance with an instruction from the control unit 21. For example, a medical image generated from the image generation device 1 is received, or a medical image stored in the HDD 26 is transmitted to the image processing device 30.

  The storage unit 25 stores various control programs and parameters such as parameters necessary for execution of processing or data such as processing results.

The HDD 26 stores medical image data (original images) acquired from the image generation apparatus 10. The HDD 26 also stores an image management table t as image management information for managing the stored medical images.
In the image management table t, as shown in FIG. 3, the patient ID of the patient from whom the medical image was photographed, the examination ID uniquely given to each examination, the image number unique to the generated image, the photographing date, Item information necessary for specifying a medical image such as a modality name used for imaging is stored in a database.

The storage capacity of the HDD 26 needs to be prepared with a certain margin.
Usually, after imaging is performed and a medical image is generated, interpretation by a doctor is started within one week at the latest. That is, the image quality confirmation and image processing of the medical image are performed by the technician in the image processing apparatus 30 during one week, so the storage capacity must be at least one week after the original image is generated. I must.

  For example, if the medical images handled by each control device 20 are 2000 pixels × 2500 pixels per image and about 100 images are generated per day, the capacity is 40 GB HDD (the storage capacity for image storage is 20 GB). If there are, 2000 images can be stored for about 20 days.

  Further, the HDD 26 stores imaging order information received from the RIS / HIS 3. The imaging order information is uniquely attached to each examination, for example, patient information such as the name, patient ID, and sex of the patient to be imaged, imaging date, modality name used for imaging, imaging information such as imaging site, and the like. Various information such as the examination ID, examination information such as the name of the doctor who instructed the examination, and image reading conditions are included.

  The image processing apparatus 30 is installed as a workstation that allows an engineer to confirm the image quality of a medical image transmitted from the control apparatus 20, and includes a large-capacity memory that can temporarily store a medical image. Necessary image processing is performed on the image. Examples of the image processing include reduction / enlargement processing, gradation conversion processing, sharpness adjustment processing, dynamic range processing, and the like.

  After the image processing is performed, the image processing device 30 writes information related to the image processing, such as processing parameters used for the image processing, in the header of the processed image when an engineer performs an operation to confirm as an image for interpretation. The processed image and related information are transmitted to the management apparatus 4 via the network buses N2 and N1.

Next, each of the devices 3 to 5 on the network bus N1 will be described.
The RIS / HIS 3 is a system that comprehensively manages information in a radiology department or a hospital. In RIS / HIS3, an examination request from a doctor is received and the above-described imaging order information is generated. Then, the generated imaging order information is transmitted to the control device 20 via the network buses N1 and N2.

  The management device 4 stores and manages the processed image determined as an image for interpretation in the CR network unit 2 together with related information. Further, the distribution destination of the stored processed image is determined, and the processed image is transmitted to the determined distribution destination.

  The output device 5 outputs the processed image distributed by the management device 4. As the output device 5, a monitor that performs display output, a film output device that performs film output, and the like are applicable.

Next, the operation of the medical image system 1 will be described.
First, the flow from generation to storage of a medical image will be described.
When the imaging order information is generated at the request of the doctor in the RIS / HIS 3, the imaging order information is distributed to each control device 20. The control device 20 displays a list of shooting order information according to the operation of the engineer, and based on the shooting order information selected by the engineer, registration of the recording means (cassette) used for the shooting (cassette ID and shooting order information). And control information (for example, conditions such as reading pitch) at the time of reading the cassette are set. When the cassette that has been photographed is inserted into any image generation device 10 of the plurality of image generation devices (cassette reading devices) 10, the control information that has been set is the image generation device at the time of reading using the cassette ID as a key. 10 is reflected.

  In the image generation device 10, a medical image is generated from the imaged cassette according to the control information input from the control device 10. Then, when imaging information or the like is written in the header of the medical image as the related information of the generated medical image, the imaging order information using the cassette is transmitted to the registered control device 20. That is, when the engineer operates the control device 20, the medical image generated by the image generation device 10 is always transmitted to the control device 20 operated by the engineer.

In the control device 20, since the medical image acquired from the image generation device 10 is displayed, the engineer confirms the position and image quality of the subject by the display. If the image is inappropriate, the image is taken again, and if it is appropriate, the save operation is instructed.
In the control device 20, the medical image instructed to be stored is stored in the HDD 26 as an original image, and an image management table t is created based on the related information of the medical image. Next, the medical image stored in the HDD 26 is copied together with related information and transmitted to the image processing apparatus 30.

  In the image processing device 30, when a medical image and related information are received from each control device 20, the image is temporarily stored as a processing target image. These medical images are displayed according to the operation of the engineer. The engineer confirms the image quality and the like of the displayed medical image, and instructs various image processing if necessary. Then, if the image quality is good, an operation for determining the processed image as an image for interpretation is performed.

In the image processing apparatus 30, the processed image determined as the image for interpretation is transmitted to the management apparatus 4 via the network buses N1 and N2.
In the management apparatus 4, the image for image interpretation received from the image processing apparatus 30 is stored.

As described above, the processed image determined as the image for interpretation is distributed and output to the output device 5 or the like and used for diagnosis by a doctor. May be necessary.
Hereinafter, with reference to FIG. 4, an operation in the case where image processing is performed again after being determined as an image for interpretation will be described.
As a premise of the explanation, when it is necessary to reprocess the image for interpretation, the engineer goes to the nearest control device 20 and instructs to perform reprocessing. When the reprocessing is instructed, the medical image system 1 including the control device 20 starts the following processing. The original image stored in each control device 20 is referred to as a medical image, and the processed image determined for interpretation is referred to as an interpretation image.

  As shown in FIG. 4, first, in the control device 20, all the control devices 20 in which medical images of medical images are stored are displayed as a list on the display unit 23. The engineer designates and operates the control device 20 in which the medical image of the medical image to be reprocessed is stored. Hereinafter, in order to distinguish between the control device 20 operated by the engineer and the designated control device 20, the former is referred to as a control device A and the latter is referred to as a control device B.

  When the control device B storing the medical image is designated via the operation unit 22 (step S1), the control device A is connected to the control device B via the communication unit 24 and is connected to the HDD 26 of the control device B. The image management table t is referred to (step S2). Next, in the control device A, based on the image management table t, an examination history list in which medical images stored in the control device B are listed for each examination of a patient is created by the control unit 21 and displayed on the display unit 23. (Step S3). The engineer sequentially selects and operates a patient, an examination, and a medical image corresponding to the medical image to be reprocessed in the displayed examination history list.

  In the control device A, request information for requesting the selected medical image and its supplementary information is transmitted to the control device B in response to the selection operation. In the control device B, a copy of the requested medical image and its related information in the HDD 26 is generated in accordance with the request information from the control device A and transmitted to the control device A. The obtained medical image and its related information are acquired (step S4).

  Next, in the control device A, the acquired medical image and related information are transmitted to the image processing device 30. In the image processing device 30, the medical image received from the control device A is displayed. The engineer confirms the medical image by the display and performs reprocessing such as instructing necessary image processing. In the image processing device 30, image processing is performed again in response to an operation instruction to generate a processed image. Next, when a determination operation is performed as an image for interpretation by the engineer, information related to the image processing is written as related information in the header of the image for interpretation, and attached (step S5).

  Next, an image for interpretation by reprocessing and its accompanying information are transmitted from the image processing device 30 to the management device 4. In the management apparatus 4, there is already an image for interpretation (same as the previous process) of the same image number, but when a new image for interpretation is received from the image processing apparatus 30, the new image for interpretation and related The information is overwritten and saved (step S6), and this process ends.

  As described above, according to the present embodiment, since a medical image stored in one control device 20 can be acquired from one control device 20 and transferred to the image processing device 30, it has already been confirmed. Even when it is necessary to re-process the image for interpretation, it is possible to retrieve the medical image from the nearest control device 20 and easily obtain it, thereby improving the working efficiency of the engineer. In the case of a system configuration in which only the image for interpretation is stored and managed in the management device 4, medical images are stored in a distributed manner in each control device 20, but according to this embodiment, from any control device 20 Since the medical images stored in the other control devices 20 can be acquired, the medical images distributed and stored in the control devices 20 can be shared.

Further, when searching for a medical image stored in another control device 20, the search is performed using the image search table t, so that the search efficiency of the medical image is good.
Furthermore, information related to image processing at the time of reprocessing is written as related information of the image after reprocessing, and the image for interpretation and related information are overwritten and stored in the management device 4, thereby preventing duplication of images for interpretation. Can do.

The medical image system 1 in the present embodiment is a suitable example to which the present invention is applied, and is not limited to this.
For example, in the above-described embodiment, the case where a medical image stored in the control device 20 for reprocessing is acquired has been described. However, when a plurality of image processing devices 30 are installed, the image processing device 30 also performs pre-image processing. Since the medical image is temporarily stored, the medical image may be obtained from any of the image processing apparatuses 30.

  In this case, the image processing apparatus 30 also performs the same operation as that of the control apparatus 20 described in the above embodiment, so that medical images stored between the image processing apparatuses 30 can be acquired from each other. Thus, the engineer can easily perform reprocessing by operating the nearest image processing apparatus 30. In addition, when a medical image is acquired by the image processing device 30, information related to the previous image processing remains attached as related information to the medical image stored by the control device 20. Information related to the image processing related to the processing is transmitted to the control device 20. In the control device 20, information related to the image processing after the reprocessing is added to the related information of the medical image and updated.

  Furthermore, it is good also as a structure which can mutually acquire the medical image which each preserve | saves between the control apparatus 20 and the image processing apparatus 30. FIG. As a result, the number of devices that the engineer can operate for reprocessing increases, and the work efficiency is good. Further, when the plurality of control devices 20 are configured to be connectable to an arbitrary image generation device 10 among the plurality of image generation devices 10, communication with each control device 20 for image acquisition increases the communication load of the network N <b> 2. Become. Therefore, when acquiring a medical image stored in the control device 20 from the image processing device 30, by identifying one control device 20 from the plurality of control devices 20 and acquiring the medical image, the communication of the network N2 The load can be minimized.

Each control device 20 may have the function of the image processing device 30.
If the HDD 26 mounted in each control device 20 has a storage capacity of about 30 GB, image processing is sufficiently possible. When each control device 20 has an image processing function, it is preferable that a terminal device for confirming an image for interpretation is closer to the technician in charge.

  Furthermore, in the above-described embodiment, an example in which a cassette is used for photographing and a cassette reading device is applied as the image generation device 10 has been described. However, the present invention is not limited thereto, and an FPD may be used. In this case, when registering the imaging order information in the control device 20, the ID of the FPD used for the imaging is registered, and the FPD uses the ID as a key to transfer the read image to the control device 20 in which the imaging order information is registered. Can be returned.

  In addition, if the related information of the image for interpretation is stored with the ID number of the control device 20 in which the medical image is stored, the information of the control device 20 in which the medical image necessary for reprocessing is stored is stored. Identification is easy and preferable.

It is a figure which shows the system configuration | structure of the medical image system in this embodiment. It is a figure which shows the internal structure of a control apparatus. It is a figure which shows an example of an image management table. It is a flowchart explaining the flow of a process in a medical image system. It is a figure explaining the conventional medical image system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Medical image system 2 CR network part 10 Image generation apparatus 20 Control apparatus 30 Image processing apparatus 3 RIS / HIS
4 management device 5 output device

Claims (16)

In a medical image system including at least one or more image generation devices and a plurality of control devices that acquire and store medical images generated by the image generation devices,
The plurality of control devices are configured so that medical images stored in one control device can be acquired from another control device.   The medical image system according to claim 1, wherein the plurality of control devices acquire related information related to an image attached to the medical image together with the medical image. An image processing apparatus for performing image processing on the medical image;
When the image processing apparatus performs image processing on the medical image acquired from the other control apparatus, the control apparatus relates to the image processing on the related information of the image for image interpretation that has been subjected to the image processing. The medical image system according to claim 2, wherein the related information is updated by adding information. A plurality of the image processing devices, each image processing device can store a medical image to be image processed,
The medical image system according to claim 3, wherein the plurality of image processing apparatuses are configured to be able to acquire medical images stored in one image processing apparatus from another image processing apparatus.   The plurality of control devices and the plurality of image processing devices are configured to be able to acquire medical images stored in another control device or another image processing device from one control device or one image processing device. The medical image system according to claim 4, wherein The plurality of control devices include image processing means for performing image processing on the medical image,
When one control device performs image processing on a medical image acquired from another control device, the information related to the image processing is transmitted to the other control device, and the other control device transmits the transmitted image. The medical image system according to claim 2, wherein information related to processing is updated in addition to related information of the medical image. At least one image generating device;
A plurality of control devices for acquiring and storing medical images generated by the image generation device;
An image processing device for performing image processing on medical images stored in the control device;
A management device that stores the image for image interpretation subjected to the image processing and performs output control thereof,
The plurality of control devices are configured to be able to obtain medical images stored in one control device from another control device. A plurality of the image generating devices;
The plurality of image generation devices provide the generated medical image to a control device that controls the image generation among the plurality of control devices. Medical imaging system. A medical image acquisition method in a medical image system, comprising at least one image generation device and a plurality of control devices for acquiring and storing medical images generated by the image generation device,
A medical image acquisition method comprising: acquiring a medical image stored in one control device from another control device.   The medical image acquisition method according to claim 9, wherein related information about an image attached to the medical image is acquired together with the medical image. The medical image system includes an image processing device that performs image processing on the medical image;
When image processing is performed by the image processing device on the medical image acquired from the other control device, information related to the image processing is added to the related information of the image for image interpretation that has been subjected to the image processing. The related information is updated, The medical image acquiring method according to claim 10. The medical image system includes a plurality of image processing devices capable of storing medical images to be processed,
The medical image acquisition method according to claim 11, wherein a medical image stored in one image processing apparatus is acquired from another image processing apparatus.   The medical image acquisition method according to claim 12, wherein medical images stored in another control device or another image processing device are acquired from one control device or one image processing device. The plurality of control devices have image processing means for performing image processing on the medical image,
When one control device performs image processing on a medical image acquired from another control device, the information related to the image processing is transmitted to the other control device, and the other control device transmits the transmitted image. The medical image acquisition method according to claim 10, wherein information related to processing is updated in addition to the related information of the medical image. At least one or more image generation apparatuses, a plurality of control apparatuses that acquire and store medical images generated by the image generation apparatus, and an image processing apparatus that performs image processing on the medical images stored in the control apparatus; A medical image acquisition method in a medical image system comprising: a management device that stores an image for image interpretation subjected to the image processing and performs output control thereof;
A medical image acquisition method comprising: acquiring a medical image stored in one control device from another control device. The medical image system includes a plurality of the image generation devices,
The plurality of image generation devices provide the generated medical image to a control device that controls image generation among the plurality of control devices. Method for acquiring medical images.

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